AI Article Synopsis
- A Brownian motion is a type of random movement that can have a "drift" which means it generally moves in one direction. In this case, it moves in a negative direction.
- We can stop this process at a random time and if we do it right, the new process behaves in a way that is easier to understand and predict.
- By looking at specific mathematical techniques, the researchers found new ways to study these processes, even when they are a bit more complicated than usual, giving interesting results about their behavior.
Article Abstract
Suppose that ( ) is a one-dimensional Brownian motion with negative drift -. It is possible to make sense of conditioning this process to be in the state 0 at an independent exponential random time and if we kill the conditioned process at the exponential time the resulting process is Markov. If we let the rate parameter of the random time go to 0, then the limit of the killed Markov process evolves like conditioned to hit 0, after which time it behaves as killed at the last time visits 0. Equivalently, the limit process has the dynamics of the killed "bang-bang" Brownian motion that evolves like Brownian motion with positive drift + when it is negative, like Brownian motion with negative drift - when it is positive, and is killed according to the local time spent at 0. An extension of this result holds in great generality for a Borel right process conditioned to be in some state at an exponential random time, at which time it is killed. Our proofs involve understanding the Campbell measures associated with local times, the use of excursion theory, and the development of a suitable analogue of the "bang-bang" construction for a general Markov process. As examples, we consider the special case when the transient Borel right process is a one-dimensional diffusion. Characterizing the limiting conditioned and killed process via its infinitesimal generator leads to an investigation of the -transforms of transient one-dimensional diffusion processes that goes beyond what is known and is of independent interest.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6824481 | PMC |
| http://dx.doi.org/10.1016/j.spa.2018.05.013 | DOI Listing |
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